The National Science Foundation (NSF) supports 16 user facility sites, their affiliated partners, and a coordinating office as the National Nanotechnology Coordinated Infrastructure (NNCI). The NNCI sites provide researchers from academia, small and large companies, and government with access to university user facilities with leading-edge fabrication and characterization tools, instrumentation, and expertise within all disciplines of nanoscale science, engineering and technology.
The Cornell Nanoscale Facility offers a comprehensive set of advance nanofabrication tools supported by more than 20 technical staff. We support user projects in electronics, photonics, electronic materials, MEMS, applied physics, materials science, and biomedical areas.
At its core, NNCI exists to help scientists and engineers from around the country access the state-of-the-art resources necessary to participate in the nanotechnology revolution.
Did You Know?
Did you know that the atmosphere is constantly filled with nanoparticles from volcanic ash, sea spray, cosmic dust, and smoke. These are naturally occurring nanoparticles and occur at different heights in our atmosphere.
Did you know that your hair and fingernails grow one nanometer every second? A nanometer is one billionth of a meter or 10-9 m.
Did you know that at the nanoscale materials take on unusual properties that differ from the bulk? Nano-sized aluminum powders are explosive and are being explored as rocket propellants.
Did you know that the colors in stained glass windows of medieval cathedrals were created by different sized gold and silver nanoparticles? Changing the size (and shape) of the particles produces different colors.
Did you know that all of the atoms in your body, except for the Noble gases, have at least at one time in the past been in a nanoparticle?
Did you know ferrofluids were developed by NASA in the 1960s to control fluids in space? Ferrofluids are colloidal liquids made of nanoscale magnetic particles suspended in a liquid.
Did you know that not all color is due to pigments? Some colors are due to nanoscale structures like those found on the wings of the Blue Morpho butterfly.
Did you know that the nanoscale properties of the lotus leaf are the inspiration for many easy-clean and water-repellant materials? The lotus leaf has nanoscale waxy bumps that cause water to bead up and roll off, taking dirt with it.